Journal Article10.1039/C9EE01777A
Flexible thermoelectrics: from silver chalcogenides to full-inorganic devices
Jiasheng Liang,Tuo Wang,Pengfei Qiu,Shiqi Yang,Chen Ming,Hongyi Chen,Qingfeng Song,Kunpeng Zhao,Tian-Ran Wei,Dudi Ren,Yi-Yang Sun,Xun Shi,Xun Shi,Jian He,Lidong Chen +14 more
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TL;DR: In this article, the authors reported high intrinsic flexibility and state-of-the-art figures of merit (up to 0.44 at 300 K and 0.63 at 450 K) in Ag2S-based inorganic materials.
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Abstract: Flexible thermoelectrics is a synergy of flexible electronics and thermoelectric energy conversion. To date, state-of-the-art thermoelectrics is based on inorganic semiconductors that afford high electron mobility but lack in mechanical flexibility. By contrast, organic materials are amply flexible but low in electrical mobility and power output; the inorganic–organic hybrid design is a viable material-level option but has critical device-level issues for practical application. Here, we reported high intrinsic flexibility and state-of-the-art figures of merit (up to 0.44 at 300 K and 0.63 at 450 K) in Ag2S-based inorganic materials, opening a new avenue of flexible thermoelectrics. In the flexible full-inorganic devices made of such Ag2S-based materials, high electrical mobility yielded a normalized maximum power density up to 0.08 W m−1 under a temperature difference of 20 K near room temperature, orders of magnitude higher than organic devices and organic–inorganic hybrid devices. These results promised an emerging paradigm and market of wearable thermoelectrics.
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Citations
Advanced Thermoelectric Design: From Materials and Structures to Devices
TL;DR: This review aims to comprehensively summarize the state-of-the-art strategies for the realization of high-performance thermoelectric materials and devices by establishing the links between synthesis, structural characteristics, properties, underlying chemistry and physics.
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Flexible thermoelectric materials and devices: From materials to applications
TL;DR: In this article, the authors summarize the recent progress of flexible thermoelectric materials, including conducting polymers, organic/inorganic hybrid composites, and fully inorganic materials.
306
Flexible thermoelectrics based on ductile semiconductors
TL;DR: Yang et al. as discussed by the authors reported a series of high-performance p-type ductile thermoelectric materials based on the composition-performance phase diagram in AgCu(Se,S,Te) pseudoternary solid solutions.
255
Advances in the design and assembly of flexible thermoelectric device
Tianyi Cao,Zhigang Chen +1 more
TL;DR: In this article , the authors present the latest progress on the up-to-the-date flexible thermoelectric devices (F-TEDs) with their unique designs.
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References
Compliant and stretchable thermoelectric coils for energy harvesting in miniature flexible devices
Kewang Nan,Stephen Dongmin Kang,Stephen Dongmin Kang,Kan Li,Ki Jun Yu,Feng Zhu,Feng Zhu,Juntong Wang,Alison C. Dunn,Chaoqun Zhou,Zhaoqian Xie,Matthias T. Agne,Heling Wang,Haiwen Luan,Yihui Zhang,Yonggang Huang,G. Jeffrey Snyder,John A. Rogers,John A. Rogers +18 more
TL;DR: This work proposes and demonstrates an architectural solution to the problem of maintaining large temperature differences across the device terminals and achieving low–thermal impedance interfaces to the surrounding environment, where thin-film active materials integrate into compliant, open three-dimensional (3D) forms.
Fabrication of Flexible Thermoelectric Thin Film Devices by Inkjet Printing
Ziyang Lu,Michael Layani,Xiaoxu Zhao,Li Ping Tan,Ting Sun,Shufen Fan,Qingyu Yan,Shlomo Magdassi,Huey Hoon Hng +8 more
TL;DR: Ink-jet printing of thermoelectric nanomaterials is successfully used to fabricate flexible thin film TE devices for power generation and cooling.
248
Extremely high electron mobility in a phonon-glass semimetal
Shintaro Ishiwata,Yuki Shiomi,Julian Lee,Julian Lee,Mohammad Saeed Bahramy,Takehito Suzuki,Masaki Uchida,Ryotaro Arita,Yasujiro Taguchi,Yoshinori Tokura,Yoshinori Tokura +10 more
TL;DR: A multilayered semimetal β-CuAgSe with glassy lattice is a new type of promising thermoelectric material suitable for chemical engineering.
220
Enhanced Thermoelectric Performance through Tuning Bonding Energy in Cu2Se1–xSx Liquid-like Materials
Kunpeng Zhao,Anders Bank Blichfeld,Anders Bank Blichfeld,Hongyi Chen,Qingfeng Song,Tiansong Zhang,Chenxi Zhu,Dudi Ren,Riley Hanus,Pengfei Qiu,Bo B. Iversen,Fangfang Xu,G. Jeffrey Snyder,Xun Shi,Lidong Chen +14 more
TL;DR: In this article, a bonding energy variation strategy was proposed to tune the carrier concentrations in Cu2Se-based liquid-like thermoelectric compounds, where alloying S at the Se sites successfully increases the bonding energy to fix Cu atoms in the crystal lattice to suppress the formation of Cu vacancies.
Solution-printable fullerene/TiS2 organic/inorganic hybrids for high-performance flexible n-type thermoelectrics
Liming Wang,Zimeng Zhang,Linxiao Geng,Tianyu Yuan,Yuchen Liu,Juchen Guo,Lei Fang,Jingjing Qiu,Shiren Wang +8 more
TL;DR: In this article, 2D TiS2 nanosheets were exfoliated from layered polycrystalline powders, and then assembled with C60 nanoparticles, resulting in a new class of flexible n-type thermoelectric materials via a concurrent enhancement in the power factor and a reduction in thermal conductivity.
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